G. Tevzadze, E. Zhuravliova, Natia Okriashvili, N. Narmania, T. Barbakadze, D. Mikeladze
{"title":"多巴胺受体/NMDA受体异复合体在健康雄性、雌性和听原性癫痫易发雄性大鼠脑区的不同排列","authors":"G. Tevzadze, E. Zhuravliova, Natia Okriashvili, N. Narmania, T. Barbakadze, D. Mikeladze","doi":"10.3844/ajbbsp.2022.195.204","DOIUrl":null,"url":null,"abstract":": Differences in the composition and subcellular localization of heteroreceptors in the brain can trigger central nervous system diseases, including epilepsy and autism. Protein-protein interactions between Dopamine Receptors (DRs) and GLUN2A and GLUN2B subunits are critical mechanisms that regulate dopamine and glutamate coordinated signals. These interactions may be involved in the pathophysiological predisposition of epilepsy. We hypothesized that the specificity of dopaminergic neurotransmission in audiogenic Seizure-Prone (SP) rats could be underlined by the distribution and expression of the N-Methyl-D-Aspartate Glutamate Receptor (NMDAR) and Dopamine Receptor (NMDAR/DR) heterocomplex. We determined the oligomerization of synaptic and extra-synaptic NMDAR subunits with D1 and D2 receptors in the prefrontal cortex and Nucleus Accumbens (NAc) of healthy and epileptic males rats. Considering that the comorbidity of epilepsy and autism is more prevalent in females, we also studied the pattern of interaction. in NMDAR/DR heterocomplex formation in healthy female rats. The association of Dopamine Receptor type 1 (D1R) with the GLUN2A receptor, in the extra-synaptic fraction of epilepsy-prone rats, was lower than that in healthy female and male rats. In contrast, the interaction of D1R with the GLUN2B receptor was higher in the extra-synaptic membranes of epilepsy-prone rats than that in healthy rats. Furthermore, we found that the D2R/GLUN2B ratio was higher in the synaptic NAc fraction of SP and female rats. Therefore, we suggest that the different subunit proportions of the NMDAR/DR heterocomplex in the prefrontal cortex and NAc of male, female, and SP rats can be attributed to their cognitive or emotional flexibility.","PeriodicalId":7412,"journal":{"name":"American Journal of Biochemistry and Biotechnology","volume":"26 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-02-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Different Arrangement of Dopamine Receptors/NMDA Receptors Heterocomplexes in the Brain Regions of a Healthy Male, Female and Audiogenic Seizure-Prone Male Rats\",\"authors\":\"G. Tevzadze, E. Zhuravliova, Natia Okriashvili, N. Narmania, T. Barbakadze, D. 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Considering that the comorbidity of epilepsy and autism is more prevalent in females, we also studied the pattern of interaction. in NMDAR/DR heterocomplex formation in healthy female rats. The association of Dopamine Receptor type 1 (D1R) with the GLUN2A receptor, in the extra-synaptic fraction of epilepsy-prone rats, was lower than that in healthy female and male rats. In contrast, the interaction of D1R with the GLUN2B receptor was higher in the extra-synaptic membranes of epilepsy-prone rats than that in healthy rats. Furthermore, we found that the D2R/GLUN2B ratio was higher in the synaptic NAc fraction of SP and female rats. 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引用次数: 0
摘要
大脑中异受体的组成和亚细胞定位的差异可引发中枢神经系统疾病,包括癫痫和自闭症。多巴胺受体(dr)与GLUN2A和GLUN2B亚基之间的蛋白-蛋白相互作用是调节多巴胺和谷氨酸协调信号的关键机制。这些相互作用可能与癫痫的病理生理易感性有关。我们推测,n -甲基- d -天冬氨酸受体(NMDAR)和多巴胺受体(NMDAR/DR)异复合体的分布和表达可能强调了听源性癫痫易发(SP)大鼠多巴胺能神经传递的特异性。我们测定了健康和癫痫雄性大鼠前额皮质和伏隔核(NAc)突触和突触外具有D1和D2受体的NMDAR亚基的寡聚化。考虑到癫痫和自闭症的合并症在女性中更为普遍,我们也研究了相互作用的模式。对健康雌性大鼠NMDAR/DR异复合体形成的影响多巴胺受体1型(D1R)与GLUN2A受体的关联,在癫痫易感大鼠的突触外部分,低于健康雌性和雄性大鼠。相比之下,D1R与GLUN2B受体在癫痫易感大鼠突触外膜中的相互作用高于健康大鼠。此外,我们发现SP大鼠和雌性大鼠突触NAc部分的D2R/GLUN2B比值更高。因此,我们认为,雄性、雌性和SP大鼠前额皮质和NAc中NMDAR/DR异复合体的亚基比例不同可能与它们的认知或情绪灵活性有关。
Different Arrangement of Dopamine Receptors/NMDA Receptors Heterocomplexes in the Brain Regions of a Healthy Male, Female and Audiogenic Seizure-Prone Male Rats
: Differences in the composition and subcellular localization of heteroreceptors in the brain can trigger central nervous system diseases, including epilepsy and autism. Protein-protein interactions between Dopamine Receptors (DRs) and GLUN2A and GLUN2B subunits are critical mechanisms that regulate dopamine and glutamate coordinated signals. These interactions may be involved in the pathophysiological predisposition of epilepsy. We hypothesized that the specificity of dopaminergic neurotransmission in audiogenic Seizure-Prone (SP) rats could be underlined by the distribution and expression of the N-Methyl-D-Aspartate Glutamate Receptor (NMDAR) and Dopamine Receptor (NMDAR/DR) heterocomplex. We determined the oligomerization of synaptic and extra-synaptic NMDAR subunits with D1 and D2 receptors in the prefrontal cortex and Nucleus Accumbens (NAc) of healthy and epileptic males rats. Considering that the comorbidity of epilepsy and autism is more prevalent in females, we also studied the pattern of interaction. in NMDAR/DR heterocomplex formation in healthy female rats. The association of Dopamine Receptor type 1 (D1R) with the GLUN2A receptor, in the extra-synaptic fraction of epilepsy-prone rats, was lower than that in healthy female and male rats. In contrast, the interaction of D1R with the GLUN2B receptor was higher in the extra-synaptic membranes of epilepsy-prone rats than that in healthy rats. Furthermore, we found that the D2R/GLUN2B ratio was higher in the synaptic NAc fraction of SP and female rats. Therefore, we suggest that the different subunit proportions of the NMDAR/DR heterocomplex in the prefrontal cortex and NAc of male, female, and SP rats can be attributed to their cognitive or emotional flexibility.